Lecturer name: Dr Ali Somily Lecture Title: NORMAL FLORA (Foundation Block, Microbiology) Lecturer name: Dr Ali Somily Department of Pathology, Microbiology Unit
Lecture Objectives.. By the end of this lecture the student is expected to be able to: Define the terms: Normal Flora, Resident flora, Transient flora and carrier state Know the origin of normal flora. Know the importance of normal flora with examplesKnow areas of the body with normal flora (GIT, Urogenital tract, and skin) and most common types of organism in these areas and relation to pathogenicity of these organism. Know sites of the body with no normal flora e.g. sterile body sites and the importance of this fact in relation to interpretation of culture results.
Definition Normal flora are microorganisms that are frequently found in a particular site in normal healthy individual. Some are found in association with humans / animals only. The Majority are bacteria. Symbiotic relationship with the host. Subject to constant changes. Altered by antimicrobial agents.
Types of Normal Flora Commensals: natural relationship with host.(No harm to the host) Residents : present for invariable period . (months-years) Transients : establish itself briefly , excluded by host defense or competition from residents.(days-weeks) Carrier state : potentially pathogenic , eg. S.pneumoniae, N. meningetidis in throat of healthy individual. S.Typhi,
Origin of Normal Flora Newborn sterile in utero After birth ,exposed to flora of mother’s genital tract , skin, respiratory tract flora of Those handling him ,and organisms in the environment. Bifido Human milk (5-5.5) genital 4-5 Fuso
Beneficial effects of normal flora 1- Immunostimulation (antibody development) 2- Exclusionary effect (vacuum effect ) and protection from external invaders.. 3-Production of essential nutrients (Vit. K & B) by some normal intestinal flora eg. E.coli.
Other facts regarding normal flora May be a source of opportunistic infections. eg . In patients with impaired defense mechanisms. eg S.epidermidis, E.coli. Some may cross react with normal tissue components, eg, antibodies to various ABO group arise because of cross reaction between intestinal flora and the antigens of A &B blood substances.
Continue: Production of carcinogens: Some normal flora may modify through their enzymes chemicals in our diets into carcinogens. eg. artificial sweeteners may be enzymatically modified into bladder carcinogens.
Distribution of normal flora Internal organs (except alimentary tract) are sterile at health. Sterility maintained by : - local defense mechanisms - chemical substances in serum & tissues eg. Complement , antibodies. -phagocytic activity of PMN
Areas of the body with normal flora Skin Upper Respiratory Tract GIT: mouth & large colon Urogenital Tract: vagina & distal 1/3 of the urethra
Summary Staphylococcus aurous (Coagulase +) Other Staph(Coagulase -) Staphylococcus aurous (Coagulase +) Other Staph(Coagulase -) Alph Hemolytic Streptococci (viridians Streptococci and strept pneumo Enterococcus Neisseria ,Moraxella and Heaomophilus Popionibacterium acnes Corynebacteria (diphtheroid) Lactobacillus Gram Negative Bacteria (coliform ie E.coli) Pseudomonas (Bactericides, fusobacterium and clostridium ) Anaerobic bacteria Oral Cavity +++ Skin Eye and eye Axilla, Groin and nose GIT female Genital
Normal Skin Flora Fatty acid , lysozymes by sweat glands Skin has rich resident bacterial flora(104/cm2). Exist as microcolonies. Anaerobic organisms predominate in areas with sebaceous glands. Moist skin ,often colonized by coliforms.
Main Skin Flora Staph. epidermidis Corynebacteria Propionibacterium acnes Staph. aureus (less common, potential pathogen) Coliforms
Ear and Eye External auditory meatus: Staph. epidermidis Corynebacteria AFB occasionally in wax. Conjuctival sac flora: Corynebacterium xerosis Staph. epidrmidis
Normal flora of the respiratory tract Upper resp.tract colonizes by flora as in mouth & nasopharynx Lower respiratory tract is sterile NOSE: Staph. Aureus 30% Staph. epidermidis Corynebacteria
Oropharynx flora Viridance streptococci Corynebacteria Commensal neisseriae and moraxella Heamophilus inflenzea & Pneumcoccus are potential pathogens. Bacteroides, Fusobacteria , Veillonella, actinomyces, spirochaetes. Less common: S.pyogenes ,N.meningitidis Gram negative bacteria in hospitalize patients
Gastrointestinal tract flora Saliva contains 108 bact/ml Gingival margin debris &dent. Plaque contiually colonized by bacteria. Oesophagus flora as pharyngeal flora. Empty stomach sterile due to gastric acid. Duodenum, jejunum&upper ielum have scanty flora Large intestine heavily colonized by bacteria.
Faeces 1/3 of faeces wt. is bacteria , mainly dead, Living bacteria ~ 1010/gm 99% anaerobes Anaerobic environment maintained by aerobic bacteria utilizing free O2. Bacteroides fragilis group the dominant anaerobes, bifidobact. Lactobacilli…etc. Less common: E.coli ,Proteus,….etc.
Genitourinary tract flora Kidney, bladder and fallopian tube are sterile Female genital tract heavily colonized , why ? 108/ml in normal vaginal secretion. In both sexes Mycob. Smegmatis (AFB) in secretions which contaminate urine-leads to confusion /misdiagnosis. M & F distal urethra: - S.epidermidis - Corynebacteria -Mycoplasma.
Female Genital lactobacilli Bacteroides melaninogenicus Vulva Vagina S. epidermidis Corynebacteria E.coli and other coliforms Enterococcus faecalis. lactobacilli Bacteroides melaninogenicus Enterococcus faecalis Corynebacteria Mycoplasma Yeasts. G-ve ,GPC and yeast in young and old
Reference book and the relevant page numbers.. SHERRIS MEDICAL MICROBIOLOGY, AN INTRODUCTION TO INFECTIOUS DISEASES. KENNETH RYAN /GEORGE RAY. LATEST EDITION. PUBLISHER MC GRW HILL. CHAPTER 9,PAGE 141-148
Thank You (Foundation Block, Microbiology) Dr Ali Somily